Title :
Large-signal 2T, 1C DRAM cell: signal and layout analysis
Author :
Henkels, W.H. ; Hwang, W.
Author_Institution :
T.J. Watson Res. Centre, IBM Res. Div., Yorktown Heights, NY, USA
fDate :
7/1/1994 12:00:00 AM
Abstract :
This paper presents a general signal and layout analysis for the two-transistor, one-capacitor DRAM cell. The 2T, 1C configuration enables significantly larger, typically ≳3x, raw sense-signal than is achievable in conventional 1T, 1C cells. In general, stray capacitances at the capacitor nodes further increase the signal level; an exact analytic formula is derived in this case, including the dependence upon bitline precharge level. With trench technology, the 2T, 1C cell occupies 25-30% more area than a corresponding folded-bitline 1T, 1C cell; an implementation employing a buried strap is proposed. Maximization of array density requires multiplexing bitlines to sense amps
Keywords :
DRAM chips; cellular arrays; circuit layout; array density; bitline precharge level; buried strap; exact analytic formula; layout analysis; multiplexing; raw sense-signal; signal analysis; stray capacitances; trench technology; two-transistor one-capacitor DRAM cell; Capacitance; Capacitors; Electrodes; Equivalent circuits; Random access memory; Signal analysis; Signal design; Signal detection; Voltage;
Journal_Title :
Solid-State Circuits, IEEE Journal of
